Atlantoaxial instability secondary to Bartonella henselae osteomyelitis managed surgically by atlantoaxial instrumentation: A case report and systematic review.

Cat scratch disease (CSD), caused by Bartonella henselae, may atypically present with vertebral osteomyelitis. Antibiotic regimens are tailored to presentation, which is markedly variable and not well defined for any atypical disease. In cases of spinal instability, the use of antibiotics alone may not be sufficient. Atlantoaxial instability caused by osteomyelitis is a rare complication of CSD. In this report, we describe the rare case of vertebral osteomyelitis complicated by atlantoaxial instability, requiring both antibiotics and atlantoaxial fusion. We discuss our case, surgical technique, rationale, and outcome. In addition, we conducted a systematic review of the literature of vertebral osteomyelitis in pediatric secondary to B. henselae. A 2-year-old child presented with a 2-month history of irritability, fever, and rigid neck pain along with a recent history of feline exposure. Physical examination revealed cervical tenderness and decreased range of motion. Computed tomography (CT) showed osteolysis of the right C1 lateral mass and pars articularis; T1-weighted magnetic resonance imaging with contrast showed enhancement around the right C1 lateral mass. The titer for B. henselae was high. A diagnosis of cat scratch osteomyelitis with cervical instability was made, for which the patient underwent surgery with atlantoaxial fusion. Postoperative imaging demonstrated resolution of the contrast-enhanced lesion. At 6-year follow-up, the patient showed no signs of residual complications from surgical intervention with a solid fusion. Our review revealed 44 cases of pediatric CSD vertebral osteomyelitis. Conservative management with antibiotic employed in 86% while antibiotics with surgical intervention in 14% of the cases. Surgical intervention was most often in the form of incision for drainage and decompression without fusion. Average follow-up 10 months with 86% achieved complete resolution. Cervical instability caused by osteolysis is a rare complication of CSD. This can subsequently lead to vertebral instability, requiring definitive surgical intervention.

The Global Burden of Neural Tube Defects and Disparities in Neurosurgical Care.

BACKGROUND: Despite the success of folic acid fortification programs, neural tube defects (NTDs) such as spina bifida, encephalocele, and anencephaly remain among the most substantial causes of childhood morbidity and mortality worldwide. Although these are complicated conditions that require an interdisciplinary approach to care, definitive treatment of survivable NTDs is often neurosurgical. METHODS: Using Global Burden of Disease data, we examined the global burden of NTDs as related to a nation's wealth, health care quality, and access to neurosurgical care. We abstracted data for death by cause, years lived with disability (YLD), gross domestic product (GDP), United Nations geoscheme, Food Fortification Initiative participation, and Healthcare Access and Quality Index. We compared means using 1-way analysis of variance and proportions using Fisher exact tests, with statistical significance as α = 0.05. RESULTS: Seventeen of 20 (85%) nations with the most deaths caused by NTDs (P < 0.0001) and 15/20 (75%) nations with the highest YLD (P < 0.0001) were in the lowest GDP quartile. Deaths and YLD were negatively correlated with increasing GDP and Healthcare Access and Quality Index (P < 0.0001). The nations with the highest disease burdens also had the fewest neurosurgeons per capita. CONCLUSIONS: Despite the success of folic acid fortification programs, greater global public health efforts should be placed on improving access to neurosurgical care in low and middle-income nations through sustainable initiatives such as surgeon exchange programs and the establishment of neurosurgery residency training programs.